Reclining device and method for manufacturing the same

ABSTRACT

A casing  10  includes second gears  20  having second locking cams  25  disposed in axial symmetry with a rotational axis of the casing  10,  and guides  11 A each having a slide-contacting face  11   c , disposed in axial symmetry with a rotational axis of the casing  10  and on a straight line L 4  perpendicular to a line L 3  passing through the second locking cams  25.  A cam  40  includes a plurality of first locking cams  41  for pressing the second locking cams  25,  disposed in axial symmetry with a rotational axis of the cam  40,  and guiding faces  45  disposed in axial symmetry with a rotational axis of the cam  40  and on a straight line L 2  perpendicular to a line L 1  passing through the first locking cams  41.  A shaft  30  includes coupling portions  32, 34  for transmitting external torque and is press-fitted into the center hole  42  of cam  40  at a predetermined rotational angle.

BACKGROUND OF THE INVENTION

[0001] 1. Field of the Invention

[0002] The present invention relates to a reclining device and to a manufacturing method thereof.

[0003] 2. Description of the Related Art

[0004] As for the seat reclining device for use in a vehicle, there have been known various kinds of device, one example of which is disclosed in Japanese Patent Unexamined Publication No. H7(1995)-136032.

[0005] According to this known seat reclining device, a casing attached to the base plate of a seat cushion and a cap attached to the arm plate of a seat back are rotatably coupled with each other.

[0006] When it is desired that the casing and the cap be fixed relatively, the cam plate mounted on an operating shaft is rotated by a predetermined degree, thereby shifting the locking tooth of the casing toward an internal tooth gear formed on the inner circumferential surface of the cap so as to engage the locking tooth with the internal tooth gear.

[0007] With this, due to the contact between the cam plate and the cam face formed on the locking tooth, the locking tooth is pressed onto the internal tooth gear.

[0008] When it is desired that the casing and the cap be rotated independently, the cam plate is rotated in the opposite direction, gear so as to disengage the locking tooth from the internal tooth gear.

[0009] The cam plate is designed such that two locking teeth located axially opposite to each other can be simultaneously moved. In order to ensure the engagement between each of these locking teeth with the internal tooth gear, clearance has to be provided between the cam plate and the operating shaft. Due to this clearance, looseness is generated between the cam plate and the operating shaft, thereby causing backlash and noise.

[0010] With a view to solving this problem, it has been proposed that the operating lever be provided with a spring. This proposal however invites problems in that the number of parts and the number of steps for the assembling of the device is increased.

[0011] Further, according to this known seat reclining device, the magnitude of shift of the locking tooth portion toward the internal tooth gear is very small as compared with the magnitude of shift of the cam face of cam plate in a circumferential direction. In other words, the non-uniformity of distance between the locking tooth and the internal tooth gear is amplified to a large non-uniformity in the range of rotation of the cam plate and of the operating shaft. In other words,due to the non-uniformity of all of constituent components, the range of the rotational angle of the operating shaft varies between each. This causes a problem in that the direction of the operating lever coupled to the operating shaft cannot be constant.

SUMMARY OF THE INVENTION

[0012] Therefore, an object of the present invention is to provide a reclining device which is capable of preventing the generation of abnormal noise and also capable of minimizing the non-uniformity of the range of the rotational angle of the operating shaft, while maintaining the balance of the thrusting force between the cam plate and the locking tooth portion.

[0013] A first aspect of the present invention is a reclining device comprising: a casing; a cap rotatably mounted on the casing, having a first gear along the inner circumference thereof; a plurality of second gears for engaging with the first gear, each having a second locking cam, disposed in axial symmetry with a rotational axis of the casing; a cam comprising a plurality of first locking cams for pressing the second locking cam to thereby engage the second gear with the first gear, disposed in axial symmetry with a rotational axis of the cam; and a plurality of guiding faces disposed in axial symmetry with a rotational axis of the cam and on a straight line perpendicular to a line that passes through two first locking cams located axially opposite each other; and a plurality of guides for guiding the guiding face, disposed in axial symmetry with a rotational axis of the casing and on a straight line perpendicular to a line passing through two second locking cams located axially opposite each other.

[0014] A second aspect of the present invention is the reclining device according to the first aspect, wherein each of the guiding faces is formed as a circular arc centered on the rotational axis of the cam, thereby enabling the guiding faces to always be in contact with the guides in the rotation range of the cam.

[0015] Since the reclining device is constructed as described above, the movement of the cam is restricted whilst the freedom of rotation is secured, thereby stabilizing the cam. In other words, since the cam is allowed to freely rotate to a position where the pressing force thereof to each of the second gears can be balanced, the tooth of each of second gears can be reliably engaged with the first gear. Accordingly, since it is no longer necessary to provide any play in the fitting between the center hole of the cam and the shaft, the generation of noise due to play can be prevented and, at the same time, the number of parts and the number of steps for the assembling of the device can be reduced.

[0016] A third aspect of the present invention is the reclining device according to the first aspect, further comprising a shaft having a coupling portion for transmitting external torque, wherein the shaft is configured to be press-fitted into a center hole of the cam when the coupling portion is aligned with the casing at a predetermined rotational angle.

[0017] A fourth aspect of the present invention is the reclining device according to the third aspect, wherein the shaft is configured to be press-fitted into the center hole of the cam after the second gears engage with the first gear at a predetermined rotational angle.

[0018] A fifth aspect of the present invention is the reclining device according to the third aspect, further comprising a seat cushion, a seat back, and a connecting shaft, wherein one of the casing and the cap is disposed on both the right and left sides in a width ways direction of the seat cushion, and the other is disposed on both the right and left sides in a width ways direction of the seat back, and the connecting shaft connects the respective shafts on both the right and left sides via the respective coupling portions.

[0019] Since the reclining device is further constructed as described above, it is possible to press-fit the shaft into the center hole of the cam after finishing the assembly of the casing, the cap, the second gears and the cam.

[0020] Further, the rotational angle of the shaft with respect to the casing can be locked. Accordingly, when the operating lever is attached to each of the coupling portions of the shaft, the extending direction of the operating lever can be kept constant.

[0021] In a case where the casing is coupled with the seat cushion, the shaft can be kept at a predetermined angle with respect to the seat cushion. In other words, when the operating lever is attached to the shaft, for example, the operating lever can be kept at a predetermined angle with respect to the seat cushion.

[0022] A sixth aspect of the present invention is the reclining device according to the fifth aspect, wherein the coupling portions connected to the connecting shaft have play interposed therebetween of predetermined angle in a rotational direction.

[0023] A seventh aspect of the present invention is a method of manufacturing the reclining device according to the first aspect, comprising the steps of: a) preparing a casing, a cap, second gears, a cam and a shaft; the cap is rotatably mounted to the casing, having a first gear along the inner circumference thereof; a plurality of the second gears are for engaging with the first gear, each having a second locking cam, disposed in axial symmetry with a rotational axis of the casing; the cam comprises a plurality of first locking cams for pressing the second locking cam to thereby engage the second gear with the first gear, which are disposed in axial symmetry with a rotational axis of the cam, and a plurality of guiding faces disposed in axial symmetry with a rotational axis of the cam and on a straight line perpendicular to a line passing through two first locking cams located axially opposite each other; and a shaft having a coupling portion for transmitting external torque; b) assembling the casing, the second gears, the cam and the cap with each other; c) aligning the coupling portion with the casing at a predetermined rotational angle; and d) press-fitting the shaft into a center hole of the cam.

[0024] An eighth aspect of the present invention is the method of manufacturing the reclining device according to the seventh aspect, wherein the step of aligning the coupling portion with the casing at a predetermined rotational angle is performed with the second gears engaged with the first gear at a predetermined rotational angle.

[0025] By disposing the reclining devices of this invention on both the right and left sides of the seat back and coupling them with each other, the seat back can be reliably and safely reclined to a predetermined angle. Further, since the rotational angle of the coupling portions of shaft with respect to the casing is the same on both sides, the connecting shaft can be easily coupled to each of the shafts. In other words, it becomes possible to minimize the play required for fitting the coupling portions in the connecting shaft. Further, it becomes possible to minimize the time difference of engagement or disengagement between the right and left sides when only one shaft is rotated. Therefore, the feeling when setting the angle of the seat back is improved.

[0026] Since minimal play is provided at the connection between the coupling portions of the shaft and the connecting shaft, even when a large force is transferred from a belt anchor to the seat cushion, and causes, for example, the shaft of the left side to rotate due to the elastic deformation of the seat cushion, and this rotation is then transmitted via the connecting shaft to the shaft of the right side, the tooth of the right side can be kept engaged with the first gear.

BRIEF DESCRIPTION OF THE DRAWINGS

[0027] The invention will now be described with reference to the accompanying drawings wherein:

[0028]FIG. 1 is a front view of a main portion of a reclining device embodying the present invention;

[0029]FIG. 2 is a cross-sectional view of the reclining device taken along the line II-II of FIG. 1;

[0030]FIG. 3 is a cross-sectional view of the reclining device taken along the line III-III of FIG. 1;

[0031]FIG. 4 is an enlarged front view illustrating the second gear of the seat reclining device;

[0032]FIG. 5 is an enlarged view of a portion of the reclining device, which is encircled by a dashed line in FIG. 4;

[0033]FIG. 6 is an exploded perspective view of a main portion of the reclining device;

[0034]FIG. 7 is a front view of the reclining device;

[0035]FIG. 8 is a cross-sectional view of the reclining device taken along the line VIII-VIII of FIG. 7; and

[0036]FIG. 9 is a side view of the reclining device as seen from the direction of the arrows represented by the line IX-IX of FIG. 8.

DETAILED DESCRIPTION OF THE INVENTION

[0037] An embodiment of the present invention will be explained below with reference to the drawings, wherein like numbers are designated by like reference characters.

[0038] The seat reclining device (E) for vehicle shown in this embodiment is provided with a cap 60 fitted in the inner side of a circular recessed portion 14 formed in a casing 10. The cap 60 is coaxially rotatable along the inner circumferential surface of the circular recessed portion 14. This reclining device (E) is also provided with pivot type locking tooth (second gear) 20 and a rotatable cam 40, both of which are interposed between the casing 10 and the cap 60.

[0039] The cap 60 is provided with internal tooth gears (first gear) 61 along the inner circumference surface thereof, which are axially opposite to each other. The locking teeth (second gears) 20 are disposed at two positions of the casing 10 and are free to pivot. Each locking tooth (second gear) 20 is provided with an external tooth gear 21 and is disposed facing a respective internal tooth gear (first gear) 61 so as to engage with the internal tooth gear (first gear) 61. The cam 40 rotates in a direction (counterclockwise in FIG. 1) about the center hole 42 thereof, thereby pushing each of the locking tooth (second gear) 20 outward in a radial direction, thus enabling the external tooth gears 21 to engage with the internal tooth gears (first gear) 61. The cam 40 also rotates in the opposite direction (clockwise in FIG. 1) about the center hole 42 thereof, thereby releasing the above-mentioned engagement.

[0040] Under the condition where one of the casing 10 and the cap 60 is coupled with the seat cushion 150, and the other is coupled with the seat back 160, when the external tooth gear 21 of the locking tooth (second gear) 20 engages with the internal tooth gear (first gear) 61, the seat back 160 can be maintained at a predetermined angle with respect to the seat cushion 150. Note that, in this embodiment, casings 10 are disposed on and fixed to both the right and left sides in a width ways direction of the seat cushion 150, and caps 60 are disposed on and fixed to both the right and left sides in a width ways direction of the seat back 160, wherein operating shafts 30 are disposed on both the right and left sides and coupled with each other by a cylindrical connecting shaft 50 via serrations (coupling portions) 32 to be discribed later.

[0041] The operating shaft 30 is designed to be press-fitted into a center hole 42 of the cam 40 to be fixed thereto. This operating shaft 30 is provided with serrations (coupling portions) 32, 34 for transmitting external torque. Under the condition where each of the serrations (coupling portions) 32, 34 is aligned with a predetermined position in the rotational direction in the casing 10, the operating shaft 30 is press-fitted into a center hole 42 of the cam 40. Note that the serration (coupling portion) 32 is designed to be engaged with the serration 51 formed on the inner surface of the connecting shaft 50, while the serration 34 is designed to be engaged with the serration 35 formed in the coupling hole of the operating lever 31. These serrations (coupling portions) 32, 34 are identical in position and in the configuration of recess and projection in a circumferential direction.

[0042] Further, the press-fitting shaft portion 30 a of the operating shaft 30 is designed to be press-fitted into a center hole 42 of the cam 40 under the condition where each of the serrations (coupling portions) 32, 34 is aligned with a predetermined position in the rotational direction in the casing 10 after the external tooth gear 21 of the locking tooth (second gear) 20 has been engaged with the internal tooth gear (first gear) 61 by the rotation of the cam 40. The serration 42 a formed to the center hole 42 is designed to decrease the force required for press-fitting the press-fitting shaft portion 30 a of the operating shaft 30 into the center hole 42 and, at the same time, to obtain stronger retention of the press-fitting shaft portion 30 a upon completion of the press-fitting process thereof.

[0043] The serration (coupling portion) 32 of each of the operating shafts 30 disposed to the right and left sides of the seat is coupled with the serration 51 of the connecting shaft 50 with an engagement having play of predetermined degree in a rotational direction. This play is set to a minimum magnitude which allows the prevention of the disengagement of the right side external tooth gear 21 from the internal tooth gear (first gear) 61, when a relatively large force is transferred from a belt anchor to the left side of seat cushion 150 and the left side operating shaft 30 is rotated by elastic deformation of the reinforcing members of the seat cushion 150, thus allowing this rotation to be subsequently transmitted via the connecting shaft 50 to the right side operating shaft 30.

[0044] Further, the locking teeth (second gears) 20 are disposed at an angle of 180 degrees from each other about the rotational axis of the casing 10, while the locking cam faces (first locking cam) 41 are formed around the center hole 42 of the cam 40 and separated away from each other by an angle of 180 degrees. The cam 40 has two outer peripheral faces (guiding faces) 45 separated from each other by an angle of 180 degrees about the center hole 42 and lying on a straight line L2 perpendicular to a line L1 passing through two opposite locking cam faces (first locking cam) 41. The casing 10 is provided with two first guiding projections (guides) 11A which are disposed at an angle of 180 degrees from each other about the rotational axis of the casing 10 and lying on a straight line L4 perpendicular to a line L3 passing through two opposite locked cam faces (second locking cams) 25 of the locking tooth (second gear) 20. Each of the first guiding projections (guides) 11A is provided with a slide-contacting face 11 c designed to slidably contact with the outer peripheral face (guiding face) 45. This outer peripheral face (guiding face) 45 is configured to have a circular arc face centered about the center hole 42 of the cam 40, enabling the circular arc face to be kept in slidable contact with the slide-contacting face 11 c of the guiding projection (guide) 11A in the range of rotation of the cam 40. Note that the slide-contacting face 11 c is provided with a surface which is parallel with the line L3 passing through two locked cam faces (second locking cams) 25 of the locking tooth (second gear) 20, thereby allowing the cam 40 to shift toward the locked cam face (second locking cam) 25.

[0045] The following is a detailed explanation of each of the above-mentioned constitutions.

[0046] The casing 10 is fixed to a base plate 110 using welding or bolts or the like, the outer side of the base plate 110 constituting one of the reinforcing members of the seat cushion 150. The cap 60 is fixed to an arm plate 120 using welding or bolts or the like, the outer side of the armplate 120 constituting one of the reinforcing members of the seat back 160. Further, a spiral spring 130 is wound coaxially with the casing 10 and the cap 60, the spiral spring 130 rotates the arm plate 120 toward the front (F) direction so as to incline the seat back 160 forward.

[0047] The casing 10 is disk-shaped as a whole and provided with a circular recessed portion 14 having a circular inner peripheral face 14 a which is coaxially located close to the outer circumferential surface of the casing 10. Further, the casing 10 is provided, at its axial center, with a hole 17, allowing the operating shaft 30 to be inserted therein.

[0048] Further, two first guiding projections (guides) 11A, two second guiding projections 11B, two protrusions 13 and two pivots 16 project from the bottom of the circular recessed portion 14. The pivots 16 are designed to support the locking tooth (second gear) 20 while allowing the pivoting of locking tooth (second gear) 20. Each of the first guiding projections (guides) 11A is provided with a circular arc guiding face 11 a for slidably guiding the first outer peripheral surface 27 of the locking tooth (second gear) 20 which is allowed to pivot about the pivot 16. Each of the second guiding projections 11B is also provided with a circular arc guiding face 11 b for slidably guiding the second outer peripheral surface 28 of the locking tooth (second gear) 20 which is allowed to pivot about the pivot 16. The first outer peripheral surface 27, second outer peripheral surface 28, and the circular arc guiding faces 11 a, 11 b together form a circular arc around the center of rotation of the locking tooth (second gear) 20, the movement of which is enabled by the pivot 16. Moreover, each of the first guiding projections (guides) 11A is provided, at the surface thereof facing the rotation center, with the above-mentioned slide-contacting face 11 c.

[0049] One of the protrusions 13 is located between one set of a first guiding projection (guide) 11A and a second guiding projection 11B, while the other protrusion 13 is located between the other set of a first guiding projection (guide) 11A and a second guiding projection 11B. These protrusions 13 retain the base portion 70 a of a locking spring 70.

[0050] The locking spring 70 is formed of a spiral spring and pushes the cam 40 to rotate in the counterclockwise direction of FIG. 1, thus pushing the external tooth gear 21 of the locking tooth (second gear) 20 to keep it engaged with the internal tooth gear (first gear) 61.

[0051] All of the first guiding projections (guides) 11A, the second guiding projections 11B, the protrusions 13 and the pivots 16 are formed integrally with the casing 10 by means of an embossing finish using a press.

[0052] The cap 60 is disk-shaped like the casing 10, and provided with the internal tooth gear (first gear) 61 which is formed along the inner circumferential surface of a rim 60 a adapted to be rotatably engaged with the inner circumferential surface 14 a of the casing 10. Further, this cap 60 is provided, at the axial center thereof, with a hole 62, allowing the operating shaft 30 to be inserted therein.

[0053] The external peripheries of the cap 60 and casing 10 are covered and held together by a ring-shaped holder 80, thereby rotatably retaining them without allowing separation in an axial direction.

[0054] Each the locking tooth (second gear) 20 is provided with the above-mentioned external tooth gear 21 at a position on one side of the pivot 16 and facing the internal tooth gear (first gear) 61. The external tooth gear 21 is provided, on the rear side thereof, with the locked cam face (second locking cam) 25 which is designed to receive force from the locking cam face (first locking cam) 41 of the cam 40. In other words, when the locking tooth (second gear) 20 receive force from the locking cam face (first locking cam) 41 of the cam 40 on the lock cam face (second locking cam) 25, the locking tooth (second gear) 20 are enabled to rotate in a clockwise direction centered on the pivot 16, thereby allowing the external tooth gear 21 to engage with the internal tooth gear (first gear) 61.

[0055] The external tooth gear 21 is formed to a region close to the pivot 16. The pressure angle (R) of the teeth of the external tooth gear 21 and the internal tooth gear (first gear) 61 is in the range of 60 to 90 degrees. The height of the teeth on the pivot 16 side of the external tooth gear 21 is lower than that of the other teeth. The radius of a tooth tip in this portion is larger than that of the other tooth tip.

[0056] The external peripheral surface 22, with the pivot 16 interposed between it and the external tooth gear 21, is cut flat so as to prevent the external peripheral surface 22 from interfering with the internal tooth gear (first gear) 61. On the rear side of this external peripheral surface 22, a lock-released cam face 26 designed to receive force from the lock-releasing cam face 44 of the cam 40 is disposed. In other words, when the lock-released cam face 26 of the locking tooth (second gear) 20 receives force from the lock-releasing cam face 44 of the cam 40, the locking tooth (second gear) 20 rotates in a counterclockwise direction, thereby allowing the external tooth gear 21 to disengage from the internal tooth gear (first gear) 61.

[0057] The operating shaft 30 is loosely fitted in the hole 17 of the casing 10, in the hole 62 of the cap 60, and also in the supporting holes 112 and 122 formed in the base plate 110 and the arm plate 120, respectively. The serrations 34 of the operating shaft 30 project out into the base plate 110, while the serrations (coupling portion) 32 project out into the arm plate 120. Note that the operating lever 31 attached to the serration 34 is provided with an operating knob 33 and serration 35 for the attachment.

[0058] The cam 40 is designed to be fixed to the press-fitting shaft portion 30 a of the operating shaft 30 via a center hole 42 provided to the cam 40 by press-fitting. The cam 40 is provided, on the external peripheral surface thereof, with two locking cam faces (first locking cams) 41 and with two lock-releasing cam faces 44. Furthermore, the cam 40 is also provided with an engaging portion 43 which is designed to engage with the outer edge 70 b of the locking spring 70.

[0059] The locking spring 70 is formed of a spiral spring. The base portion 70 a thereof is retained by a projection 13, while the outer edge 70 b thereof is designed to be engaged with the engaging portion 43 of the cam 40, thereby providing a rotating force to rotate the cam 40 in the counterclockwise direction of FIG. 1. The cam 40 is designed to receive the rotating force in a tangential direction from two locking springs 70 through the engaging portions 43 disposed at two locations in axial symmetry with a rotational axis.

[0060] The arm plate 120 is provided with an attachment portion 121 to the seat back 160, and with a retaining means 140 for retaining the inner portion 131 of the spiral spring 130.

[0061] This retaining means 140 is located on the lower side of the hole 122 of the arm plate 120 and is formed by cutting and bending a portion of the arm plate 120 in a semi-circular configuration along the locus of a predetermined radius of curvature centered on the hole 122. An inner end 132 of the spiral spring 130 hooks onto a recessed portion (not shown) formed at a fringe portion of the cut-bent portion 141.

[0062] The outer end 133 of the spiral spring 130 is hooked onto a hook pin 111 attached to the base plate 110. The arm plate 120 biased so as to rotate in a direction forward the front (F) by this spiral spring 130.

[0063] Note that, in FIG. 9, the reference number 123 represents a stopper for preventing the forward inclination of the seat back. When the arm plate 120, that is, the seat back 160 is rotated in the direction of the front (F), the stopper 123 abuts on the hook pin 111 of the base plate 110, so as to regulate the rotation of the seat back 160 in the direction of the front (F).

[0064] Next, the functions and effects and the like of this seat reclining device (E) for vehicle will be explained.

[0065] When assembling the seat reclining device (E), the cam 40 and the locking spring 70 are attached to the casing 10 at first. In this condition, due to the rotational force of the locking spring 70, the external end 70 b of the locking spring 70 is kept engaged with the slide-contacting face 11 c of the guiding projection (guide) 11A, and the engaging portion 43 of the cam 40 is not engaged with the external end 70 b.

[0066] Next, by using a shaft-shaped sustaining member (not shown) provided with a serration which is adapted to engage with the serration 42 a formed at the center hole 42 of the cam 40, the cam 40 is rotated in the clockwise direction of FIG. 1. As a result, the external end 70 b of the locking spring 70 engages with the engaging portion 43 of the cam 40. Under this condition, the locking tooth (second gear) 20 is attached to the casing 10, and then, the cap 60 is fitted in the circular recessed portion 14 of the casing 10. In other words, the serration of the sustaining member is inserted into the center hole 42, and then, rotated in the clockwise direction of FIG. 1. As a result, the locking tooth (second gear) 20 is rotated in a counterclockwise direction by the lock-releasing cam face 44 and the lock-released cam face 26, thereby enabling the external tooth gear 21 to move to the inner side in a radial direction as compared with the imaginary position of the internal tooth gear (first gear) 61 of the cap 60. Then, the rim portion 60 a is inserted between the inner peripheral surface 14 a of the casing 10 and the external tooth gear 21 of the locking tooth (second gear) 20, thereby enabling the cap 60 to be fitted in the circular recessed portion 14 of the casing 10. Subsequently, the retaining member is released, thereby allowing the locking tooth (second gear) 20 to rotate in a clockwise direction via the cam 40 by the rotating force of the locking spring 70, thus enabling the external tooth gear 21 to engage with the internal tooth gear (first gear) 61. In other words, the locking tooth (second gear) 20 is allowed to rotate in the clockwise direction until engagement between the external tooth gear 21 and the internal tooth gear (first gear) 61 is accomplished. The retaining member can be dismounted after the assembling of the cap 60.

[0067] Then, the external peripheries of these cap 60 and casing 10 are covered by the holder 80, thereby rotatably supporting them together without allowing separation in an axial direction.

[0068] After the assembly of the casing 10, the locking tooth (second gear) 20, the cam 40, the cap 60, the locking spring 70 and the holder 80 has been completed as described above, the press-fitting shaft portion 30 a of the operating shaft 30 is press-fitted into the center hole 42 of the cam 40 under the condition where each of the serrations (coupling portions) 32, 34 is aligned with a predetermined position in the casing 10.

[0069] After finishing the assembly, the seat reclining device (E) is attached to the right and left sides of the seat. At this time, the serration (coupling portion) 32 of each of the operating shafts 30 is engaged with the serration 51 of the connecting shaft 50.

[0070] Further, the serration 34 of the operating shaft 30 which is located on one side (door side) of the driver's seat is engaged with the serration 35 of the operating lever 31. Additionally, the operating lever 31 is fixed to the operating shaft 30 by means of a bolt or the like (not shown). Likewise, the operating shaft 30 which is located on the other side (door side) of the auxiliary seat is engaged with the operating lever 31.

[0071] After finishing the attachment of the reclining device to the seat, the cam 40 is kept rotated in a counterclockwise direction of FIG. 1 due to the spring force of the locking spring 70. As a result, the locked cam faces (second locking cams) 25 of the locking tooth (second gear) 20 are pushed by the locking cam faces (first locking cam) 41, and hence the locking tooth (second gear) 20 are rotated in a clockwise direction about the pivot 16, thereby enabling the external tooth gear 21 to engage with the internal tooth gear (first gear) 61 of the cap 60. In other words, the rotation of the seat back 160 is prevented. Under this condition, the lines L1 and L2, and L3 and L4 could be approximately superimposed as is shown in FIG. 1, respectively.

[0072] On the other hand, when the operating knob 33 of the operating lever 31 is manipulated so as to rotate the operating shaft 30 in the clockwise direction of FIG. 1, the engagement between the locking cam face (first locking cam) 41 of the cam 40 and the locked cam face (second locking cam) 25 of the locking tooth (second gear) 20 is released, and thereby the lock-releasing cam face 44 presses the lock-released cam face 26 of the locking tooth (second gear) 20.

[0073] Further, when the lock tooth portion is pivoted in the counterclockwise direction of FIG. 1 about the pivot 16, the engagement between the external tooth gear 21 and the internal tooth gear (first gear) 61 of the cap 60 is released to form a lock-released state, thereby permitting the arm plate 120 attached to the cap 60, that is, the seat back 160 to rotate in the direction of the front (F) by means of the spiral spring 130.

[0074] If it is desired to reset to the locked state from this lock-released state, first the seat back 160 is reclined to the desired inclined position, and then the maneuvering grip on the operating knob 33 is released. As a result, due to the force of the locking spring 70, the cam 40 is allowed to rotate in the counterclockwise direction of FIG. 1, whereby the locking tooth (second gear) 20 rotates in the clockwise direction of FIG. 1, thereby enabling the external tooth gear 21 to engage with the internal tooth gear (first gear) 61, thus forming a locked state.

[0075] According to the above-mentioned seat reclining device (E), since the press-fitting shaft portion 30 a of the operating shaft 30 is press-fitted into the center hole 42 of the cam 40 under the condition where each of the serrations (coupling portions) 32, 34 is aligned with a predetermined position in the casing 10, the angle of rotation of the operating shaft 30 with respect to the casing 10 can be kept constant. In other words, since the operating shaft 30 is press-fitted into the center hole 42 with the cam 40 locked, the rotational position of the operating shaft 30, that is, the angle of the operating shaft 30 can be kept constant under the locked condition. Further, since the casing 10 is secured to the seat cushion 150, the direction in which the operating lever 31 extends can be kept constant with respect to the seat cushion 150, thus improving the external appearance of the device.

[0076] Further, since the casings 10 are disposed on both the right and left sides of seat cushion 150, and coupled with the caps 60 which are disposed on both the right and left sides of the seat back 160, the seat back 160 can be reliably and safely retained at a predetermined angle.

[0077] Further, as for the operating shafts 30 on both sides, since the position in rotational direction of the serration (coupling portion) 32 can be kept constant on the basis of the casing 10, the connecting shaft 50 can be easily linked via each of the serrations (coupling portions) 32 to each of the operating shafts 30. In other words, since the rotational position, that is, the angle of the serrations (coupling portion) 32 of each of the operating shafts 30 on both sides can be kept consistent, the serration (coupling portion) 32 can be easily engaged with the serration 51 with minimal play in the direction of rotation at the fitting portion of the serration (coupling portion) 32 of each of the operating shafts 30 with the serration 51 of the connecting shaft 50.

[0078] As a result, it becomes possible to minimize the time difference of engagement or disengagement between the tooth portions 21 and the internal tooth gear (first gear) 61 on both sides of the seat when the operating lever 31 is manipulated.

[0079] With respect to the play, it is preferable that the play is confined to a minimum as long as disengagement between the tooth portion 21 and the internal tooth gear (first gear) 61 is prevented even when a relatively large force is transferred from a belt anchor attached to one side of seat cushion 150 to the reinforcing member of the seat cushion 150, causing the operating shaft 30 rotate due to the elastic deformation of the reinforcing member or the like, this rotation being then transmitted via the connecting shaft 50 to the operating shaft 30. However, it is no longer required to provide the degree of play required by the conventional assembling procedures.

[0080] Therefore, the feeling when changing and setting the angle of seat back 160 can be improved.

[0081] Further, since the locking tooth (second gear) 20 is rotatably supported by the pivot 16 protruded from the casing 10 as well as by two circular arc guiding faces 11 a and 11 b, even if a strong impact on the seat back 160 is transmitted to the locking tooth (second gear) 20, the locking tooth (second gear) 20 is supported by the pivot 16 and by one of the circular arc guiding faces. Since the load-receiving surface can be thus increased, the mechanical strength of the reclining device is greatly improved.

[0082] Further, since two outer peripheral faces (guiding faces) 45 which are separated from each other by an angle of 180 degrees around the center hole 42 and lying on a straight line perpendicular to a line passing through two opposite locking cam faces (first locking cam) 41 of the cam plate are designed to be slidably contacted with the slide-contacting face 11 c of the guiding projections (guides) 11A which are distanced from each other by an angle of 180 degrees about rotational axis of the casing 10 and lying on a straight line perpendicular to a line passing through two opposite locked cam faces (second locking cams) 25 of the locking tooth (second gear) 20, the freedom of rotation of the cam 40 as well as the freedom of movement of the cam 40 in the direction where the locked cam faces (second locking cams) 25 are disposed cannot be obstructed, and at the same time, the movement of the cam 40 in the direction perpendicular to the direction where the locked cam faces (second locking cams) 25 are disposed can be prevented, thus stabilizing the cam 40.

[0083] Moreover, since the cam 40 can be moved to a position where the pushing force thereof against each of the locking tooth (second gear) 20 is balanced, the external tooth gear 21 of each of the locking tooth (second gear) 20 can be reliably engaged with the internal tooth gear (first gear) 61. Additionally, since it is no longer required to provide play at the fitting portion of the center hole of the cam 40 with the operating shaft for the purpose of the balance of the pushing force as in the case of the prior art, the generation of abnormal noise due to play can be prevented and at the same time, any increase in the number of parts as well as in the number of steps for preventing the generation of abnormal noise can be prevented.

[0084] Additionally, since the position of the cam 40 can be kept stabile due to the provision of the guiding projection (guide) 11A, the press-fitting of the operating shaft 30 into a center hole 42 of the cam 40 can be facilitated even if it is executed after the completion of the assembly of the casing 10, the cap 60, the locking tooth (second gear) 20, the cam 40 and the like.

[0085] Further, since each of the outer peripheral faces (guiding face) 45 is formed as a circular arc centered about the center hole 42, and is designed to be slidably contacted with the slide-contacting face 11 c of the guiding projections (guides) 11A whilst being within the rotational range of the cam 40, the degree of freedom of rotation of the cam 40 as well as the freedom of movement of the cam 40 in the direction where the locking tooth (second gear) 20 is disposed can be more reliably maintained.

[0086] The invention may be practiced or embodied in other ways without departing from the sprit or essential character thereof. For instance, the seat reclining device (E) can be disposed at only one side of seat, and the casing 10 may be attached to the arm plate 120, and the cap 60 may be attached to the seat cushion 150.

[0087] The preferred embodiments described herein are therefore illustrative and not restrictive, the scope of the invention being indicated by the claims, and all variations which come within the meaning of claims are intended to be embraced herein. 

What is claimed is:
 1. A reclining device comprising: a casing; a cap rotatably mounted on the casing, having a first gear along an inner circumference thereof; a plurality of second gears for engaging with the first gear, each having a second locking cam, disposed in axial symmetry with a rotational axis of the casing; a cam comprising; a plurality of first locking cams for pressing the second locking cam to thereby engage the second gear with the first gear, disposed in axial symmetry with a rotational axis of the cam; and a plurality of guiding faces disposed in axial symmetry with a rotational axis of the cam and on a straight line perpendicular to a line passing through two first locking cams located axially opposite each other; and a plurality of guides for guiding the guiding face, disposed in axial symmetry with a rotational axis of the casing and on a straight line perpendicular to a line passing through two second locking cams located axially opposite each other.
 2. The reclining device according to claim 1, wherein each of the guiding faces forms a circular arc centered about the rotational axis of the cam, thereby enabling the guiding faces to be kept in contact with the guides in the range of rotation of the cam.
 3. The reclining device according to claim 1, further comprising a shaft having a coupling portion for transmitting external torque, wherein the shaft is configured to be press-fitted into a center hole of the cam when the coupling portion is aligned with the casing at a predetermined rotational angle.
 4. The reclining device according to claim 3, wherein the shaft is configured to be press-fitted into the center hole of the cam after the engagement of the second gears with the first gears at a predetermined rotational angle.
 5. The reclining device according to claim 3, further comprising a seat cushion, a seat back, and a connecting shaft, wherein any of the casing and the cap is disposed on both the right and left sides in a width ways direction of the seat cushion, the other is disposed on both the right and left sides in a width ways direction of the seat back, and the connecting shaft connects the shafts on both the right and left sides via each of the coupling portions.
 6. The reclining device according to claim 5, wherein the coupling portions connected to the connecting shaft have play of predetermined angle in a rotational direction interposed therebetween.
 7. A method of manufacturing a reclining device, comprising the steps of: preparing a casing, a cap, second gears, a cam and a shaft; the cap is rotatably mounted to the casing, having a first gear along an inner circumference thereof; a plurality of the second gears are for engaging with the first gear, each having a second locking cam, disposed in axial symmetry with a rotational axis of the casing; the cam comprises a plurality of first locking cams for pressing the second locking cam to thereby engage the second gear with the first gear, which are disposed in axial symmetry with a rotational axis of the cam, and a plurality of guiding faces disposed in axial symmetry with a rotational axis of the cam and on a straight line perpendicular to a line passing through two first locking cams located axially opposite each other; and a shaft having a coupling portion for transmitting external torque; assembling all of the casing, the second gears, the cam and the cap; aligning the coupling portion with the casing at a predetermined rotational angle; and press-fitting the shaft into a center hole of the cam.
 8. The method of manufacturing the reclining device according to claim 7, wherein the step of aligning the coupling portion with the casing at a predetermined rotational angle is performed with the second gears engaged with the first gear at the predetermined rotational angle. 